Tattle-tale apparatus

ABSTRACT

An electro-mechanical indicator system for signaling when a droppable object (such as, for example, a dart, plug or ball) is released during well cementing operations. A body section has first and second chambers divided by a fluid and pressure sealing barrier. A mechanical trigger mechanism is situated in the first chamber, which is exposed to elevated pressures and harsh wellbore fluids. Less robust components, such as sensor(s), power source(s), and signal device(s) located in the second chamber, remain isolated from the wellbore environment and elevated pressures.

CROSS REFERENCES TO RELATED APPLICATION

Priority of U.S. Provisional Patent Application Ser. No. 61/309,934filed Mar. 3, 2010, incorporated herein by reference, is hereby claimed.

STATEMENTS AS TO THE RIGHTS TO THE INVENTION MADE UNDER FEDERALLYSPONSORED RESEARCH AND DEVELOPMENT

NONE

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an indicator system for use in oil andgas operations. More particularly, the present invention pertains to anelectro-mechanical indicator system for signaling when a droppableobject (such as, for example, a dart, plug or ball) is released duringwell cementing operations.

2. Brief Description of the Prior Art

Conventional rotary drilling rigs typically comprise a supportive rigfloor incorporating a rotary table, a substantially vertical derrickextending above said rig floor, and a traveling block or other hoistingmechanism that can be raised and lowered within said derrick. Duringdrilling or servicing operations, such rig equipment is often used tomanipulate tubular goods (such as drill pipe), through the rotary tableand in and out of a well bore extending into the earth's crust. Once awell has been drilled to a desired depth, large diameter pipe calledcasing is frequently installed in such well and cemented in place. Thecasing is typically installed to provide structural integrity to a wellbore, and to keep geologic formations isolated from one another.

When conventional drilling rigs are used, casing is typically insertedinto a well in a number of separate sections of substantially equallength. Single sections of pipe called “joints,” are typically screwedtogether or otherwise joined end-to-end at the rig in order to form asubstantially continuous “string” of pipe that reaches downward into theearth's surface. As the bottom or distal end of the pipe stringpenetrates further into a well, additional sections of pipe are added tothe ever-lengthening pipe string at the rig.

Conventional casing operations typically involve specialized crews andequipment mobilized at a rig site for the sole purpose of running casinginto a well. With conventional casing operations, powered casing tongs,casing elevators and spiders, and at least one dedicated hydraulic powerunit are typically required to be mobilized to a well location andinstalled just prior to such casing operating. Specialized casing crewsmust rig up and operate the equipment, connect the joints of casing torun in the well, and demobilize the equipment following completion ofthe job.

Top drive systems, which can be used to pick up sections of pipe,connect pipe sections together, and provide the torque necessary todrill wells, have been used on drilling rigs for some time to make-updrill pipe connections and to efficiently drill wells. Until relativelyrecently, it has been a challenge to develop a viable method of usingtop drives systems to make-up and run casing strings, just as strings ofdrill pipe have historically been run. However, a method of runningcasing using a rig's top drive system together with a casing runningtool (CRT) has become increasingly popular in recent years.

During casing running operations, especially those conducted usingCRT's, specialized equipment known as cement heads are frequentlyutilized. Such cement heads should beneficially permit cement slurry toflow from a pumping assembly into a well, and should have sufficientflow capacity to permit high pressure pumping of large volumes of cementand other fluids at high flow rates. Such cement heads should also havesufficient tensile strength to support heavy weight tubulars extendingfrom the surface into a well, and to accommodate raising and lowering ofsuch tubular goods without interfering with and/or intermittentlystopping longitudinal and/or rotational movement of a casing string.

Droppable objects, such as a dart, balls, plugs and/or other objects,which are typically constructed of rubber, plastic or other material,are frequently pumped into a well in connection with cementingoperations. In many instances, such items are suspended within a cementhead until the objects are released or “launched” at desired pointsduring the cement pumping process. Once released, such items join thecement slurry flow and can be pumped down hole directly into a well.Such darts, balls, plugs and/or other objects should be beneficiallyheld in place within the slurry flow passing through the cement headprior to being launched or released without being damaged or washed awayby such slurry flow. Further, it is critically important to know whensuch droppable objects have been successfully launched and cleared thecement head, entering the wellbore below such cement head.

Indicator systems for detecting passage of such droppable objects,commonly known in the industry as “tattle tales,” have been developedfor this purpose. Tattle tales are frequently used on cement heads toindicate that droppable objects such as a darts, plugs, balls or otherobjects have been released from a stationary position, passed through acement head, and entered into the well below.

During well cementing operations, it is imperative that an operator mustrecognize that a droppable object is actually released, as well as theprecise time when it is released. An absence of a positive indication ofsuch release can be a serious problem. By way of example, but notlimitation, failure to know when a plug is released can lead tomiscalculation of a volume of cement needed to be pumped downholethrough a cement head in order to adequately cement casing in place.

A challenge exists in finding a suitable sealing arrangement between theextremely harsh environment of the interior of a well, which can havefluids flowing at rates as high as eight barrels a minute with pressuresof up to 15,000 PSI, and the atmospheric pressure encountered outside ofthe cement head. Moreover, wellbore fluids can be drilling mud orcement, which are typically non-homogeneous and difficult to sealagainst.

Prior art cementing heads typically utilize a mechanical lever-actuatedindicator or tattle tale to indicate passage of a cementing plug from aplug holder within a cement head. In some instances, such prior artmechanical lever-actuated plug release indicators may erroneously signalthe passage of a cementing plug from a cementing plug container within acement head, even though such plug is still contained within thecontainer. Such erroneous indications can ruin an otherwise effectivecement job due to over displacement of cement.

Another type of prior art tattle tale utilizes a radioactive nail orother source incorporated into a cementing plug. When a cementing plughaving a radioactive signature is no longer present in the cementingplug container (that is, after it is released), a radiation measuringinstrument, such as a Geiger counter or the like, will indicate that theplug is no longer in the cementing plug container in the cement head.However, because the shelf life of readily available and easily handledradioactive nails is limited, such nails may be difficult to obtain andstore, especially when working in remote areas.

Additionally, acoustic-type plug release indicators have also been usedto indicate release of droppable objects. Such devices utilize at leastone microphone to detect the sound of an object moving through wellcasing and transmit a signal to a listening system and, frequently, amagnetic tape recorder.

Yet another type of prior art tattle tale device uses a micro-switch ora reed magnetic switch. Both devices, unless carefully sealed, have thepotential for causing a spark either when the switch closes or opens.Moreover, the switch contacts can become fouled and not allow a path forelectrical current to flow when the switch is closed. Vibration in adrilling rig can also cause very sensitive contacts of such switches tomake false contact or partial contact, thereby causing high resistanceabnormalities in the circuit. Finally, this mechanical type of switchrequires mechanical penetration and communication between a highpressure, hostile environment within a wellbore, and the environmentoutside the cement head where an indication must be observable.

Existing prior art indicator devices all suffer from significantoperational and performance limitations. Thus, it is desirable to find asuitable means for transferring sensed data from the inner flow bore ofa cement head through a suitable barrier or sealing means to anindicating device outside of said cement head. The indicator shouldreliably and consistently signal passage of a droppable object withinsaid flow bore of a cement head.

SUMMARY OF THE PRESENT INVENTION

The present invention is an indicator used in cement heads and othersimilar equipment that utilizes droppable objects such as, for example,darts, wiper balls, plugs and/or the like. Such droppable objects can beheld in place within the cement head until launching of said objects isdesired. Once launched, such plugs or other items can move downward intoa wellbore below; such plugs or other items are motivated into suchwellbore through gravity feed, as well as fluid pressure exerted fromabove. As fluid gathers on top and around a launched object, pressureincreases above such object, thereby forcing the object downward from acement head into the well bore below.

The present invention comprises an indicating device, commonly known asa tattle tale, having a body with a mechanical trigger that is at leastpartially received within a central flow bore of a cement head. When areleased object passes the indicating device of the present invention,said mechanical trigger rotates. Such rotation moves a magnet withinrange of a sensor that can determine the presence of a magnetic field.In the preferred embodiment, said sensor is located in a separatechamber isolated from the wellbore environment, preferably by amechanical, non-magnetic barrier. Such separate chamber can beneficiallyhouse a power supply, electronics, LED's, and/or an audio indicatingdevice. Among other functions, such electronics can beneficially sustainthe output signal of the indicating device(s) for a predetermined periodof time after an event occurs.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing summary, as well as the following detailed description ofthe preferred embodiments, is better understood when read in conjunctionwith the appended drawings. For the purpose of illustrating theinvention, the drawings show certain preferred embodiments. It isunderstood, however, that the invention is not limited to the specificmethods and devices disclosed. Further, dimensions, materials and partnames are provided for illustration purposes only and not limitation.

FIG. 1 depicts a side perspective view of a tattle tale assembly of thepresent invention prior to being installed into a cement head or othertool.

FIG. 2A depicts an overhead view of the tattle tale assembly of thepresent invention.

FIG. 2B is the section view of the tattle tale assembly of the presentinvention along line A-A of FIG. 2.

FIG. 3 is a detail view of the nose portion of the tattle tale assemblyof the present invention depicted in the highlighted area of FIG. 2B.

FIG. 4A depicts a perspective view of a portion of the tattle taleapparatus of the present invention, including an alternate wire tongue.

FIG. 4B depicts a perspective view of a portion of the tattle taleapparatus of the present invention, including an alternative wiretongue.

DRAWINGS Reference Numerals

1 light housing nut 2 light housing 3 body 4 switch 5 slots 6 lock nut 7boot 8 circulation loss wire tongue 9 printed circuit board (PCB) 10polycarbonate lens 11 piezo buzzer 12 positioning sleeve 13 batterycompartment cover 14 battery compartment 15 ¼-20 flat head socket screw16 141 o-ring 18 hinge pin 20 hinge 22 nose 24 Hall effect sensorassembly 26 hinge cap 28 spiral retaining ring 30 6-32 flat head socketscrew 32 ⅛″ roll pin 34 retaining wire 36 2-218 o-ring 38 8-218 back-upring 40 ¼″ roll pin 42 2-224 o-ring 44 8-224 back-up ring 46 magnet 48circular retaining ring 50 standard wire tongue

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

Cement heads are frequently mounted a significant distance above a rigfloor. In such instances, personnel must typically be lifted off the rigfloor to an elevated location using a makeshift seat or harness attachedto a hoist or other lifting device in order to permit such personnel tophysically access said cement head in order to launch droppable objectssuch as darts, balls, plugs or other items, as well as to verify thatsuch objects have actually been effectively launched and have actuallycleared the cement head. It is frequently beneficial to use a tattletale or other signaling device to indicate to personnel on or in thevicinity of the rig floor that a droppable object has been successfullylaunched, and that it has cleared a cement head, thereby reducing theneed for the dangerous practice of lifting personnel into the derrick.In such cases, it is critical that a tattle tale or other signalingdevice provide a clear and accurate indication when a droppable objecthas been released, and that such droppable object has cleared the bodyof a cement head.

Referring to the drawings, FIG. 1 depicts a perspective view of tattletale assembly 100 of the present invention having light housing 2,central body 3, threaded section 17 and nose section 22. Light housingnut 1 can be used to secure light housing 2 to body 3. In the preferredembodiment, tattle tale assembly 100 can be installed on a cement heador other similar tool, and is typically mounted so that its longitudinalaxis is oriented substantially perpendicular to the longitudinal axis ofa central flow bore of said cement head or other tool.

Still referring to FIG. 1, in the preferred embodiment light housing 2has a plurality of slots 5 disposed around the lower periphery of saidlight housing 2 to allow light from the LED's (and/or other lightsources contained within said housing 2) to be observed by personnel inthe vicinity of tattle tale assembly 100, particularly personnelsituated on a rig floor below. Switch 4, mounted to housing 2, can beused for selectively powering tattle tale assembly 100 on and off.Central body member 3 contains various items described in more detailbelow including, without limitation, mechanical and electrical elementsintegral to the operation of tattle tale assembly 100; a portion of saidcentral body member 3 is beneficially covered by protective cover 13.

Still referring to FIG. 1, although tattle tale assembly 100 of thepresent invention can be attached to a cement head or other tool in manydifferent ways, it is to be observed that said tattle tale assembly willfrequently be partially received within a transverse, threaded boreextending through a side wall of said cement head or other tool. In suchcases, threaded section 17 can mate with threads of such a threaded boreof a cement head or other tool, while lock nut 6 can be tightenedagainst said cement head or other tool once tattle tale assembly 100 iscorrectly positioned in order to secure tattle tale assembly 100 inplace. In most cases, tattle tale assembly 100 will be positioned withswitch 4 directed substantially upward, and slots 5 directedsubstantially downward. In the preferred embodiment, rubber boot 7 canbe beneficially loaded with grease to prevent well fluids from enteringthe internal portions of tattle tale assembly 100.

When tattle tale assembly 100 is connected to a cement head or othertool, wire tongue 8 can protrude—at least partially—into a central flowbore of a cement head or other tool. Said wire tongue 8 forms a triggermember and can be deflected downward when a substantial object, such asa dart, plug or ball, passes through the central flow bore of saidcement head or other tool. Wire tongue 8 will not deflect and cause asignaling event during standard flow of wellbore fluids through thecentral flow bore of a cement head or other tool.

Referring to FIG. 2A, section line “A-A” extends along the longitudinalaxis of tattle tale assembly 100. FIG. 2B depicts a sectional view oftattle tale assembly 100 of the present invention along line “A-A” ofFIG. 2A.

In the preferred embodiment, printed circuit board (PCB) 9 is disposedwithin an internal chamber formed by housing 2. Said housing 2 furthercontains all LED lamps (not shown) for visual indication to personnelobserving said tattle tale assembly 100. In the preferred embodiment,PCB 9 also contains electronics for control and operation of tattle taleassembly 100. Positioning sleeve 12 is affixed to PCB 9 so as to providea mounting surface. Polycarbonate lens 10 is positioned betweenpositioning sleeve 12 and light housing 2. In the preferred embodiment,polycarbonate lens 10 is frosted and scatters the light emitted fromLED's or other light sources when illuminated. In the preferredembodiment, housing 2 also contains a piezo buzzer 11 that provides anaudible alarm signal when a desired event occurs.

Central body member 3 of tattle tale assembly 100 includes batterycompartment 14 housing batteries 19 that can be wired to PCB 9 viaappropriate connectors. Battery compartment 14 can be constructed of PVCor other beneficial material(s) having desired characteristics. Socketscrew 15 can be used to secure battery compartment 14 in place withinbody 3, while battery compartment protective cover 13 can thread ontobody 3 to cover batteries 19 in order to protect and contain saidbatteries 19. O-rings 16 (in the preferred embodiment, 141 o-rings) forma seal between protective cover 13 and body 3, thereby protectingbatteries 19 from the surrounding environment (including, withoutlimitation, weather).

FIG. 3 is a detailed view of a portion of tattle tale assembly 100depicted within encircled section “B” depicted in FIG. 2B. In thepreferred embodiment, nose section 22, which can be beneficiallyconstructed of a non-ferrous material such as aluminum, is receivedwithin a recess formed by a portion of body member 3. O-ring 36 andback-up ring 38 provide a seal between nose section 22 and body member 3against high pressure wellbore fluids present in the cement head orother tool. Such seal effectively creates two chambers—a first chamberthat is exposed to wellbore fluids (and pressures) in the flow bore ofthe cement head or other tool, and a second chamber that is isolatedfrom such elevated pressures and is exposed to atmospheric pressure.Spiral retaining ring 28 keeps nose section 22 in place within therecess formed in body member 3. Roll pin 40 can be used to align nosesection 22 in radial orientation to body member 3.

Hinge 20 rotates about hinge pin 18 within nose section 22, and providesa mounting surface for circulation loss wire tongue 8. In the preferredembodiment, wire tongue 8 acts a trigger, and can be biased (using aspring or other biasing device) against displacement caused by wellborefluids flowing through the central flow bore of a cement head or othertool. Such spring or other biasing device helps to ensure that saidtongue 8 is not displaced, and that tattle tale assembly 100 does notindicate occurrence of an actual event, unless a droppable object (forexample, a ball, dart or plug) passes said tongue 8 and triggers theindicator mechanism of the present invention.

Hinge cap 26 provides a means of securing circulation tongue 8 to hinge20. Roll pin 40 and a flat head socket screw 30 facilitate hinge cap 26in holding said circulation loss wire tongue 8 in position on hinge 20.In the preferred embodiment, sensor assembly 24 includes a Hall Effectsensor and is secured in place by circular retaining wire 48 in a recessin nose 22; sensor assembly 24 is within the portion of tattle taleassembly 100 that is exposed to atmospheric pressure (and is isolatedfrom well fluids and elevated pressures).

Magnet 46 is disposed on hinge 20 and positioned such that said magnet46 will either come within close proximity to sensor assembly 24, or beseparated from said sensor assembly—depending upon the position of hinge20. In the preferred embodiment, boot 7 contains grease to keep saidboot from collapsing in on components of the present invention locatedwithin the chamber exposed to high pressure wellbore fluids. Boot 7 issecured to body 3 by retaining wire 34, while o-ring 42 and back-up ring44 provide a pressure and fluid seal between tattle tale assembly 100and a cement head or other tool to which it is attached.

FIG. 4A depicts a perspective view of the front of nose section 22.Alternative embodiment wire tongue 50 is shown. Alternate wire tongue50, which can be used in place of circulation loss wire tongue 8, canserve as a trigger to cause an event for small objects down to one-inchin diameter intentionally released within a wellbore/FIG. 4B depicts aperspective view of nose section 22 from the opposite perspective theview shown in FIG. 4B.

Operation of a Preferred Embodiment

The tattle tale assembly of the present invention is electronic innature, but uses mechanical means to detect the movement of a dart,plug, or ball past a desired point, described herein as “an event.”Relatively delicate sensor components are isolated from harsh wellboreenvironments and elevated pressures in which mechanical triggering meansresides. In other words, a pressure barrier separates the harsh wellboreenvironment and elevated pressures observed within the central flow boreof a cement head or other tool from less robust sensor components whichare maintained at atmospheric pressure.

In the preferred embodiment of the present invention, a mechanicaltriggering device or tongue (such as circulation loss wire tongue 8) ismounted within a chamber (such as nose section 22) which issubstantially open to the wellbore and protrudes into the central flowbore of a cement head or other tool. A deflection of said tongue causedby a passing dart, plug or ball will result in a change in potential atthe output of an electronic sensor (like that of the Hall Effect sensorin sensor assembly 24) mounted in a second chamber within the body ofthe tattle tale assembly of the present inventions.

Dual chambers having a non-magnetic barrier between such chambersresolves sealing issues discussed herein namely, the need to provide apressure and fluid seal between the pressurized wellbore fluids in thecentral flow bore of a cement head or other tool, and the atmosphericpressure observed on the outside of said cement head or other tool. Asolid barrier is beneficially formed within said tattle tale assembly100 between the wellbore environment and the portion of said tattle taleassembly 100 that houses less robust components of the device. Thenon-magnetic barrier of the present invention withstands pressures up toand beyond the maximum pressures observed within the central flow boreof the cement head or tool.

The present invention further teaches several means of causing thesensor on the atmospheric side of the non-magnetic barrier to react tothe movement of a triggering device on the wellbore side of saidbarrier. A preferred method is to use a Hall Effect sensor and a magnetmeans such as magnet 46. There are at least two positions in theprepared embodiment where said magnet may be placed. One such positionis on the trigger device itself so that the triggering of an event willcause the magnet to move close to the Hall Effect sensor, thus causing achange in potential at the sensor. Alternatively, another position isbehind the Hall Effect sensor so as to bias the sensor with the presenceof a small magnetic field. When a magnetic material such as onecontaining ferrous is moved toward the sensor from the wellbore side ofthe barrier, the magnetic field from the magnet changes, thereby causinga change in potential at the output of the sensor.

In another embodiment, a small permanent magnet can be mounted behindHall Effect sensor on the outer side of the nonmagnetic barrier. Suchmagnet will bias the sensor and cause the sensor to detect the presenceof magnetic material. In such event, a deflection of the tongue causedby a passing droppable object, such as a dart, plug or ball, will causethe magnetic material to move toward the Hall Effect sensor. Themovement of the magnetic material into the proximity of the Hall Effectsensor results the signaling of an event.

Another method for detecting movement of the trigger device of tattletale assembly 100 of the present invention is to use a simple wire coilas a sensor (within the atmospheric pressure “outer” chamber) and themovement of a magnet on the wellbore side of the non-magnetic barrier.In this method, when a magnetic field moves across the coil, a voltagepotential is generated. Similar to a configuration wherein a Hall Effectsensor is used with a magnet behind the sensor, a magnet can also beplaced within or behind a coil, which in turn allows movement of aferrous material on the wellbore side to generate a measurable voltagepotential across such coil.

The change in potential at the output of any of the variety of sensorsincluding, without limitation, those described herein, is impressed onthe input of an electronic circuit (such as the circuitry on PCB 9) thatis also located on the atmospheric side of the pressure-tight barrier.The preferred embodiment of the present invention further utilizes amicrocontroller to receive an instantaneous signal from the sensor, andthen is programmed to provide an indication of a predetermined length oftime. The indication may be any of several methods including, withoutlimitation, flashing or steady light emitting diodes, an audible alarmsuch as piezo buzzer 11, or any combination thereof. Following thepredetermined indication period, the microcontroller can be beneficiallyprogrammed to automatically reset the tattle tale assembly of thepresent invention for the next event. In the preferred embodiment, a“ready” status is noted by seeing a slowly flashing light.

The tongue of the present invention is specially designed using flowanalysis to insure it will not be triggered by well fluid flow orpressure observed within the flow bore of a cement head or other tool,but will trigger only when droppable objects such as darts, plugs, andballs pass. This requires a careful balance of the tongue area exposedto flow of wellbore fluids within the central bore of a cement head orother tool versus the spring tension opposing it. In one embodiment ofthe present invention, said tongue can detect any intentionally releasedobject including a ball as small as one inch in diameter and up to andincluding any object that is capable of passing through the bore of thecement head or other tool. Further, such tongue configuration will notbe adversely affected by normal well fluid flow.

In some instances a heavy, stringy substance known as lost circulationmaterial can be pumped down the well. Under such conditions, the presentinvention can utilize an alternative type of triggering device or tonguethat will not collect the heavy, stringy media, and thus cause falsetriggers or events. Such alternative configuration tongue is effectivein the presence of darts, plugs, and balls that are larger than threeinches in diameter.

In the preferred embodiment of the present invention, status outputs ofthe microcontroller in addition to the “PASS” mode (rapidly flashinggreen) and “READY” (slowly flashing amber), can include various othersignals such as, for example, low battery indicators (red LED) to adviseof the state of battery discharge. The electronic circuitry, includingthe LEDs, can be beneficially powered by lithium batteries. The tattletale assembly of the present invention is environmentally secure and israted as “Zone 0, Explosion Proof” for hazardous locations.

From the description above, a number of advantages of the tattle taleassembly of the present invention are apparent:

1. Total isolation of sensitive electronics from the harsh wellboreenvironment using a non-magnetic barrier.

2. Multiple methods for providing communication between a mechanicaltriggering device and a sensor which reacts to a change in a voltagepotential.

3. Special triggering devices that are not adversely affected by flow ofwellbore fluids within a central bore of a cement head or other tool,yet appropriately trigger an event when a droppable object is launched.

4. Triggering devices that will trigger an event caused by passage of anobject as small as one-inch in diameter.

5. Electronic circuitry that provides a means for adjusting or extendingthe signaling time to a desired length of time.

6. Electronic circuitry that provides a means of automatically resettingthe device for another event.

7. Electronic circuitry that provides a means of signaling the batterycondition.

The above-described invention has a number of particular features thatshould preferably be employed in combination, although each is usefulseparately without departure from the scope of the invention. While thepreferred embodiment of the present invention is shown and describedherein, it will be understood that the invention may be embodiedotherwise than herein specifically illustrated or described, and thatcertain changes in form and arrangement of parts and the specific mannerof practicing the invention may be made within the underlying idea orprinciples of the invention.

1. An indicating device for signaling passage of a launched objectthrough a central flow bore of a tool comprising: a. a body memberconnected to said tool having a first section, a second section, and apressure sealing barrier between said first and second sections; b. asensor disposed within said second section of said body member; c. atrigger member pivotally mounted to said first section of said bodymember and partially extending into said central flow bore substantiallyperpendicular to the longitudinal axis of said flow bore, whereindisplacement of said trigger is detectable by said sensor; and d. asignaling device connected to said sensor that produces a signal whensaid sensor detects displacement of said trigger member.
 2. Theindicating device of claim 1, further comprising a microprocessorconnected to said signaling device.
 3. The indicating device of claim 2,wherein said microprocessor controls said signaling device to produce asustained signal for a predetermined period of time.
 4. The indicatingdevice of claim 1, wherein said pressure sealing barrier isnon-magnetic.
 5. The indicating device of claim 1, wherein said sensorcomprises a Hall Effect sensor.
 6. The indicating device of claim 1,wherein said signaling device generates a visible signal.
 7. Theindicating device of claim 6, wherein said signaling device comprises atleast one light emitting diode.
 8. The indicating device of claim 1,wherein said signaling device generates an audible alarm.
 9. Anindicating device for signaling passage of a launched object through thecentral flow bore of a tool comprising: a. a body member connected tosaid tool having a first section, a second section, and a pressuresealing barrier between said first and second sections; b. a sensordisposed within said second section of said body member; c. a triggerhaving a first end and second end, wherein said trigger is pivotallymounted to said first section of said body member, said first end ofsaid trigger extends into said central flow bore of said toolsubstantially perpendicular to the longitudinal axis of said flow bore,and displacement of said trigger causes the distance between said secondend and said sensor to change; and d. a signaling device connected tosaid sensor that produces a signal when the distance between said secondend of said trigger and said sensor changes.
 10. The indicating deviceof claim 9, further comprising a microprocessor connected to saidsignaling device.
 11. The indicating device of claim 10, wherein saidmicroprocessor controls said signaling device to produce a sustainedsignal for a predetermined period of time.
 12. The indicating device ofclaim 9, wherein said pressure sealing barrier is non-magnetic.
 13. Theindicating device of claim 9, wherein said sensor comprises a HallEffect sensor.
 14. The indicating device of claim 13, further comprisinga magnet attached to said second end of said trigger.
 15. The indicatingdevice of claim 13, further comprising: a. a magnet disposed inproximity to said sensor; and b. ferrous material on said second end ofsaid trigger.
 16. The indicating device of claim 9, wherein saidsignaling device generates a visible signal.
 17. The indicating deviceof claim 16, wherein said visible signal comprises at least one lightemitting diode.
 18. The indicating device of claim 9, wherein saidsignaling device generates an audible alarm.
 19. The indicating deviceof claim 9, wherein said tool comprises a cement head.
 20. Theindicating device of claim 9, wherein said trigger comprises a wireshaped so that only objects passing through the central flow bore ofsaid tool having a diameter of at least one inch will displace saidtrigger.
 21. The indicating device of claim 9, wherein said triggercomprises a wire shaped so that circulation loss material passingthrough the central flow bore of said tool will not displace saidtrigger.
 22. The indicating device of claim 21, wherein only objectspassing through the central flow bore of said tool having a diameter ofat least three inches will displace said trigger.